Electronic System-Level (ESL) Design

Keysight provides the most accurate communications system design tools which accelerate PHY development and verification time by reducing cross domain iterations. With Keysight, you'll be able bring real-world effects higher in the design validation process.

ESL Design Challenges

Analog/RF and baseband/DSP/embedded teams often work in relative isolation in the design or HW validation phases, increasing the risk of time consuming and expensive iterations.

Traditional single domain “point tools” have poor to no interaction with the real world and rely on mathematical models to capture real-world effects.

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In this video we show the Electronic System Level, or ESL, design flow from Keysight based on SystemVue -- the fastest way to design and validate challenging physical layer communications systems, where baseband and RF must work together.

Keysight Technologies announces that Frost & Sullivan has recognized Keysight with the 2014 Global Frost & Sullivan Award for Market Leadership in Instrumentation Software for excellence in capturing the highest market revenue within its industry. The award is based on Frost & Sullivan's recent analysis of the instrumentation software market.

Keysight announces that they have joined the NYU WIRELESS university research center as a key sponsor of the fundamental groundwork that the research center is laying for a new generation of wireless technologies, also known as 5G.

Keysight Technologies co-hosted a 5G and millimeter-Wave (mmWave) workshop with Kwangwoon University Radio Research Center, Seoul, South Korea. The 5G event, held in October, was the first co-hosted event in the region with over 190 in attendance.

SystemVue is a focused EDA environment for electronic system-level (ESL) design that enables system architects and algorithm developers to innovate the physical layer (PHY) of next-generation wireless and aerospace/defense communications systems.

This application note shows how RF designers using Advanced Design System (ADS), as well as system architects and DSP developers using SystemVue, can co-simulate for greater functionality and cross-platform debug and verification.

The presentation reviews several simulation techniques for accurately evaluating radar system performance and may reduce system deployment risks and costs. Handling moving Tx/Rx platforms for Airborne, Space-Borne and Ship based radars is key in determining system performance. It is important to include radar environmental scenarios for interference, clutter, jamming/deception, and radar cross section (RCS). These simulation techniques can be used to analyze advanced radar systems such as phased array, Multiple-Input Multiple-Output (MIMO), active/passive, and multi-static radar systems. Application examples will be demonstrated.

IMS 2014 - Commercially available flexible simulation tools and flexible instruments can be readily used to create appropriate waveforms by specifying the top level parameters in the time or frequency domains. These can be used to test the emerging and existing RF/MW components and infrastructure and derive the required enhancements to the standards and infrastructure performance.